業績リスト

• Journal Articles
• Proceedings
• Preprints
• Domestic reports
• Organizations etc

Journal Articles

1. One-Shot Trade-Off Bounds for State Redistribution of Classical-Quantum Sources,
   E. Wakakuwa, Y. Nakata, and M.-H. Hsieh, Quantum 6, 724 (2022).
2. Explicit construction of exact unitary designs,
   E. Bannai, Y. Nakata, T. Okuda, and Z. Da, Adv. Math. Volume 405, 2022, 108457.
3. Quantum circuits for exact unitary t-designs and applications to higher-order randomized benchmarking,
   Y. Nakata, D. Zhao, T. Okuda, E. Bannai, Y. Suzuki, S. Tamiya, K. Heya, Z. Yan, K. Zuo, S. Tamate, Y. Tabuchi, and Y. Nakamura, PRX Quantum 2, 030339 (2021).
4. One-Shot Randomized and Nonrandomized Partial Decoupling,
   E. Wakakuwa, and Y. Nakata, Commun. Math. Phys. 386, 589-649 (2021).
5. One-shot quantum error correction of classical and quantum information: towards demonstration of quantum channel coding,
   Y. Nakata, E. Wakakuwa, and H. Yamasaki, Phys. Rev. A 104, 012408 (2021).
6. New holographic generalization of entanglement entropy,
   Y. Nakata, T. Takayanagi, Y. Taki, K. Tamaoka, and Z. Wei (alphabetical order), Phys. Rev. D 103, 026005 (2021).
7. Generic Entanglement Entropy for Quantum States with Symmetry,
   Y. Nakata, and M. Murao, Entropy 2020, 22(6), 684.
8. Decoupling with random diagonal-unitaries,
   Y. Nakata, C. Hirche, C. Morgan, and A. Winter, Quantum 1, 18 (2017).
9. Unitary 2-designs from random X- and Z-diagonal unitaries,
   Y. Nakata, C. Hirche, C. Morgan, and A. Winter, J. Math. Phys. 58, 052203 (2017).
10. Efficient unitary designs with nearly time-independent Hamiltonian dynamics,
    Y. Nakata, C. Hirche, M. Koashi, and A. Winter, Phys. Rev. X 7, 021006 (2017).
11. Thermal states of random quantum many-body systems,
    Y. Nakata and T. J. Osborne, Phys. Rev. A 90, 050304(R) (2014), Editors' Suggestion.
12. Diagonal quantum circuits: Their computational power and applications,
    Y. Nakata and M. Murao, Europ. Phys. J. Plus, Volume 129, Issue 7 (2014).
13. Generating a state t-design by diagonal quantum circuits,
    Y. Nakata, M. Koashi, and M. Murao, New J. Phys. 16 053043 (2014).
14. Diagonal-unitary 2-designs and their implementations by quantum circuits,
    Y. Nakata and M. Murao, Int. J. Quantum Inform. 11, 1350062 (2013).
15. A framework for phase and interference in generalized probabilistic theories,
    A. J. P. Garner, O. C. O. Dahlsten Y. Nakata, M. Murao and V. Vedral, New J. Phys. 15 093044 (2013).
16. Measurement-Based Quantum Computation on Symmetry Breaking Thermal States,
    K. Fujii, Y. Nakata, M. Ohzeki and M. Murao, Phys. Rev. Lett. 110, 120502 (2013), Editors' suggestion.
17. Phase-random states: ensembles of states with fixed amplitudes and uniformly distributed phases in a fixed basis,
    Y. Nakata, P. S. Turner and M. Murao, Phys. Rev. A 86, 012301 (2012).
18. Entanglement and the Interplay between Staggered Fields and Couplings,
    J. Hide, Y. Nakata and M. Murao, Phys. Rev. A 85, 042303 (2012).
19. Simulating typical entanglement with many-body Hamiltonian dynamics,
    Y. Nakata and M. Murao, Phys. Rev. A 84, 052321 (2011).
20. Thermal robustness of multipartite entanglement of the one-dimensional spin-1/2 XY model,
    Y. Nakata, D. Markham and M. Murao, Phys. Rev. A 79, 042313 (2009).

Proceedings

1. Entanglement of phase-random states,
   Y. Nakata, P. Turner and M. Murao, AIP Conf. Proc. 1633, 32 (2014).
2. Thermal enhancement of entanglement sensitivity to the phase diagram in XY model,
   Y. Nakata, D. Markham and M. Murao, Int. J. Quantum Inform. 06, 751 (2008).

Preprints

1. Characterizing quantum pseudorandomness by machine learning,
   M. Fujii, R. Kutsuzawa, Y. Suzuki, Y. Nakata, M. Owari, arXiv:2205.14667.
2. Black holes as clouded mirrors: the Hayden-Preskill toy model with symmetry,
   Y. Nakata, E. Wakakuwa, and M. Koashi, arXiv:2007.00895.
3. Randomized Partial Decoupling Unifies One-Shot Quantum Channel Capacities,
   E. Wakakuwa, and Y. Nakata, arXiv:2004.12593.
4. Fundamental energy cost for quantum measurement,
   K. Abdelkhalek, Y. Nakata, and D. Reeb, arXiv:1609.06981.

Domestic reports

1. Unitary designs in quantum information science ,
   中田芳史，第35回 代数的組合せ論シンポジウム報告書

Organizations etc

1. Long-term Workshop 2023 "Quantum Information, Quantum Matter and Quantum Gravity", September 4 - October 6, 2023, Kyoto, Japan.
2. YITP workshop "Quantum extreme universe from quantum information", September 26 - 30, 2022, Kyoto, Japan.
3. The 3rd Japanese-American-German Frontiers of Science Symposium, September 15 - 18, 2022, California, USA.
4. Quantum Information Entropy in Physics, 21 - 25 March, 2022.
5. 第1回 極限宇宙スクール, 2022年3月3日-5日, 京都大学基礎物理学研究所
6. AQIS2021のProgram committee.
7. 2020 International Workshop on Quantum Information, Quantum Computing and Quantum Control , Shanghai, China, January 2020.
8. The 2019 Workshop on Combinatorics and Quantum Information Theory, Shanghai, China, July 2019.
9. AQIS2019のProgram committee.
10. 基研量子情報スクール, 2019年3月18日-20日, 京都大学基礎物理学研究所
11. 2018 International Workshop on Quantum Information, Quantum Computing, and Quantum Control, Shanghai, China, November 2018.
12. 量子情報の新潮流（chair），2018年8月，東京大学物性研究所
13. 2018 Mini-Workshop on Design Theory and Quantum Information, Shanghai, China, June 2018.
14. 量子情報の新展開，2014年3月，京都大学